A prediction approach of concrete properties at early ages by using a thermal stress device

A prediction approach of concrete properties at early ages by using a thermal stress device
Cha, Sang-Lyul; Jin, Seung-Seop; An, Gyeong-Hee; Kim, Jin-Keun
2018-07-30 00:00:00
•We proposed a prediction approach of concrete properties at early ages.•Many properties, which influence stress prediction, can be predicted by the approach.•The results of prediction depended on the experimental data.•All properties were predicted within a 10% error range.
http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.pngConstruction and Building MaterialsElsevierhttp://www.deepdyve.com/lp/elsevier/a-prediction-approach-of-concrete-properties-at-early-ages-by-using-a-vtvVixYmQ1

A prediction approach of concrete properties at early ages by using a thermal stress device

Abstract

•We proposed a prediction approach of concrete properties at early ages.•Many properties, which influence stress prediction, can be predicted by the approach.•The results of prediction depended on the experimental data.•All properties were predicted within a 10% error range.

Journal

Construction and Building Materials
– Elsevier

Published: Jul 30, 2018

Recommended Articles

Loading...

References

Properties of Concrete

Neville, A.M.

Effect of sustained loading on compressive strength and modulus of elasticity of concrete

Washa, G.W.; Fluck, P.G.

Concrete

Mindess, S.; Young, J.F.; Darwin, D.

A review of early-age properties of cement-based materials

Bentz, D.P.

Cracking and temperature control of mass concrete

Rawhouser, C.

Using the maturity method in concrete cracking control at early ages

Waller, V.; d'Aloia, L.; Cussigh, F.; Lecrux, S.

Electrical curing of concrete

McIntosh, J.D.

Steam curing of concrete

Nurse, R.W.

Principles underlying the steam curing of concrete at atmospheric pressure

Saul, A.G.A.

Estimation of temperature effects on autogenous shrinkage of concrete by a new prediction model

Chu, I.; Kwon, S.H.; Amin, M.N.; Kim, J.K.

Effect of Temperature and Aging on the Mechanical Properties of Concrete, Environmental and Civil Engineering, Korea

Han, S.H.

Tensile properties of concrete at very early ages

Nguyen, D.H.; Dao, V.T.N.; Lura, P.

Prediction of early-age creep and cracking age of concrete: a proposed modification for AS3600 provisions

Khan, I.; Castel, A.; Gilbert, R.I.

Improving test methods to measure early age autogenous shrinkage in concrete based on air cooling

Amin, M.N.; Kim, J.S.; Dat, T.T.; Kim, J.K.

Application of a thermal stress device for the prediction of stresses due to hydration heat in mass concrete structure

Chu, I.Y.; Lee, Y.; Amin, M.N.; Jang, B.S.; Kim, J.K.

Simulation of the thermal stress in mass concrete using a thermal stress measuring device

Amin, M.N.; Kim, J.S.; Lee, Y.; Kim, J.K.

The 2010 fib model code for concrete structures: a new approach to structural engineering